WEBVTT FILE 1 00:00:00.020 --> 00:00:04.019 Bell Tone 2 00:00:04.040 --> 00:00:08.059 Bell Tone 3 00:00:08.080 --> 00:00:12.140 Music 4 00:00:12.160 --> 00:00:16.180 Although we can't feel it, 5 00:00:16.200 --> 00:00:20.240 our solar system is constantly being changed by a galactic wind. 6 00:00:20.260 --> 00:00:24.310 The wind is composed of gases like hydrogen, helium, oxygen and 7 00:00:24.330 --> 00:00:28.339 neon, which form a very wispy "atmosphere" between stars. 8 00:00:28.360 --> 00:00:32.409 This gas is called the interstellar medium. Like a bicycle 9 00:00:32.430 --> 00:00:36.430 traveling in a crosswind, the wind that the solar system feels is actually a 10 00:00:36.450 --> 00:00:40.470 combination of a solar system's movement relative to the galaxy and the 11 00:00:40.490 --> 00:00:44.480 movement of the interstellar medium itself. The solar wind 12 00:00:44.500 --> 00:00:48.550 pushes out against this galactic wind, forming a bubble called the heliosphere. 13 00:00:48.570 --> 00:00:52.580 The outer boundary is called the heliopause, and is blown 14 00:00:52.600 --> 00:00:56.660 into a teardrop-shape by the galactic wind. IBEX, or the 15 00:00:56.680 --> 00:01:00.750 Interstellar Boundary Explorer is designed to study this region from Earth 16 00:01:00.770 --> 00:01:04.770 orbit and has now made the first direct measurements of hydrogen, 17 00:01:04.790 --> 00:01:08.770 oxygen and neon from outside the solar system. 18 00:01:08.790 --> 00:01:12.820 Many instruments have seen the characteristic spectra of elements outside the solar 19 00:01:12.840 --> 00:01:16.870 system, but IBEX is actually detecting atoms from interstellar 20 00:01:16.890 --> 00:01:20.910 space that punch through the heliopause and strike the spacecraft. 21 00:01:20.930 --> 00:01:24.940 Only some of the atoms that make up the galactic wind can do this. 22 00:01:24.960 --> 00:01:28.990 Much of the galactic wind is made up of 23 00:01:29.010 --> 00:01:33.050 ions, which are atoms with charge due to missing electrons. 24 00:01:33.070 --> 00:01:37.070 the remaining atoms are neutral; they have the same number of electrons and protons. 25 00:01:37.090 --> 00:01:41.110 The ions are deflected by the magnetic field of the sun, 26 00:01:41.130 --> 00:01:45.160 just like the magnetic field of the Earth deflects the solar wind, but the 27 00:01:45.180 --> 00:01:49.190 neutral atoms are unaffected and go straight through. 28 00:01:49.210 --> 00:01:53.220 The measurement of these atoms by IBEX has enabled scientists to get a better 29 00:01:53.240 --> 00:01:57.259 grasp on the environment around our solar system. 30 00:01:57.280 --> 00:02:01.280 The speed of the galactic wind registered around 52,000 miles per hour, 31 00:02:01.300 --> 00:02:05.320 which is about 12% slower than previously thought. At that speed, 32 00:02:05.340 --> 00:02:09.370 it still takes about 30 years for each atom to reach 33 00:02:09.389 --> 00:02:13.380 IBEX from the edge of the solar system. The IBEX measurements 34 00:02:13.400 --> 00:02:17.410 of heavy interstellar atoms, oxygen and neon, show a 35 00:02:17.430 --> 00:02:21.460 difference from the solar system and galaxy as a whole. This puzzle 36 00:02:21.480 --> 00:02:25.480 may mean that the sun has moved out of the region where it formed, or that some 37 00:02:25.500 --> 00:02:29.520 of the oxygen has been captured by dust in interstellar space. 38 00:02:29.540 --> 00:02:33.579 These direct, physical measurements of the universe right on the sun's 39 00:02:33.600 --> 00:02:37.600 doorstep help us understand the history and future of our solar system 40 00:02:37.620 --> 00:02:41.630 and the galaxy. What scientists learn can help protect 41 00:02:41.650 --> 00:02:45.680 human spaceflight and teach us more about our home in the Milky Way. 42 00:02:45.700 --> 00:02:49.700 Music 43 00:02:49.720 --> 00:02:53.760 Beeping 44 00:02:53.780 --> 00:02:57.910 Beeping 45 00:02:57.930 --> 00:03:01.860